Here we investigated effects of intramuscular (i.m.) heating-needle stimulation on persistent muscle nociception evoked by i.m. injection of different doses (50-200??l) of complete Freund's adjuvant (CFA) in rats. Paw withdrawal reflexes evoked by noxious mechanical and heat stimulation as well as hind limb swelling were determined prior to and two weeks after the CFA injection. The unilateral injection of CFA induced a dose-related and long-lasting (5-14?d), bilateral secondary mechanical hyperalgesia and heat hypoalgesia associated with long-term limb swelling. A period of 30-45?min 43?°C heating-needle stimulation significantly enhanced the i.m. CFA-induced bilateral heat hypoalgesia and alleviated hind limb swelling. In contrast, 30-45?min 46?°C heating-needle stimulation markedly enhanced both mechanical hyperalgesia and heat hypoalgesia, but failed to influence the CFA-induced hind limb swelling. Microinjection of P2X3 receptor antagonist A-317491 (0.5-4.5?nmol/0.5??l) into the thalamic ventromedial (VM) nucleus dose-dependently inhibited the 43?°C and 46?°C heating-needle stimulation-induced heat hypoalgesia, whereas the 46?°C heating-needle stimulation-induced mechanical hyperalgesia was significantly prevented by microinjection of A-317491 into the thalamic mediodorsal (MD) nucleus. In contrast, the hind limb swelling was not affected by the microinjection of A-317491 into the thalamic VM or MD nucleus. The present study indicates that in the CFA-induced persistent muscle nociception condition, 43?°C heating-needle stimulation selectively increases descending inhibition, which effect is modulated by the thalamic VM nucleus. In addition to the antinociceptive role of P2X3 receptors in the thalamic VM nucleus, P2X3 receptors within the thalamic MD nucleus participate in the descending facilitation evoked by i.m. 46?°C heating-needle stimulation. Autism Spectrum Disorder (ASD) and epilepsy are two neurodevelopmental disorders that have a high comorbidity rate, suggesting that a common neurodevelopmental mechanism exists. However, to date there is no conclusive way to predict whether a child will develop either syndrome or both and to what degree associated phenotypes will be affected. Failure to consistently identify predictive patterns of ASD and/or epilepsy diagnosis stems from the fact that they are etiologically heterogeneous conditions and research into their neuropathological mechanisms becomes challenging. Whole genome/exome sequencing has advanced our understanding of the genetic causes of ASD and epilepsy to an extent that currently about half of all ASD as well as epilepsy cases are known to have a genetic basis. In fact, a picture is emerging of both conditions as a collection of distinct genetically defined disorders, although the role of environmental factors has also been established. A plethora of animal models, most of them based on identified human genetic mutations and a few on known environmental causes, have been developed. Animal models provide a major experimental avenue for studying the underlying cellular and molecular mechanisms of human disorders. They also provide invaluable preclinical tools that can be used to test therapeutic approaches. In this review, we first summarize the methods for validating mouse models of ASD and epilepsy. Second, we present the current models validated for the comorbidity and finally, we recapitulate the common pathomechanisms identified in these models with special emphasis on synaptic plasticity. Cells have evolved mechanisms to sense the composition of their adhesive microenvironment. Although much is known about general mechanisms employed by adhesion receptors to relay signals between the extracellular environment and the cytoskeleton, the nuances of ligand-specific signalling remain undefined. Here, we investigated how glomerular podocytes, and four other basement membrane-associated cell types, respond morphologically to different basement membrane ligands. We defined the composition of the respective adhesion complexes using mass spectrometry-based proteomics. On type IV collagen, all epithelial cell types adopted a round morphology, with a single lamellipodium and large adhesion complexes rich in actin-binding proteins. On laminin (511 or 521), all cell types attached to a similar degree but were polygonal in shape with small adhesion complexes enriched in endocytic and microtubule-binding proteins. Consistent with their distinctive morphologies, cells on type IV collagen exhibited high Rac1 activity, while those on laminin had elevated PKCα. Perturbation of PKCα was able to interchange morphology consistent with a key role for this pathway in matrix ligand-specific signalling. Therefore, this study defines the switchable basement membrane adhesome and highlights two key signalling pathways within the systems that determine distinct cell morphologies. Proteomic data are availableviaProteomeXchange with identifier PXD017913. Pulmonary arterial hypertension (PAH) is closely associated with profound vascular remodeling, especially pulmonary arterial medial hypertrophy and muscularization, due to aberrant proliferation of pulmonary artery smooth muscle cells (PASMCs). Berberine, a drug commonly used to treat inflammation, may be a novel therapeutic option for PAH by improving pulmonary artery remodeling. The present study investigated whether berberine affected Trx1/β-catenin expression and/or activity and whether it could reduce the development of pulmonary hypertension in an experimental rat model and proliferation in human PASMCs (HPASMCs). The results showed that increased proliferation in hypoxia-induced healthy PASMCs or PAH PASMCs was associated with a significant increase in Trx1 and β-catenin expression. Treatment with the Trx1-specific inhibitor PX-12 significantly reduced pulmonary arterial pressure and vascular remodeling, as well as improved in vivo cardiac function and right ventricular hypertrophy, in Su/Hox-induced PAH rats. Berberine reversed right ventricular systolic pressure and right ventricular hypertrophy and decreased pulmonary vascular remodeling in the rats. Furthermore, berberine had an antiproliferative effect on hypoxia-induced HPASMC proliferation in a manner likely mediated by inhibiting Trx1 and its target gene β-catenin expression. Our work will help elucidate novel strategies for PAH treatment involving the traditional Chinese medicine berberine, and Trx1/β-catenin may be a promising therapeutic target. https://www.selleckchem.com/products/cpi-1205.html